Huntington's disease is a neurodegenerative disease. It is always fatal. The disease is caused by a defect in the Huntingtin gene. To this day, no therapy will put a stop to the insidious disintegration of brain cells.

Huntington’s disease is a genetic disorder that affects the brain progressively and has no known cure till date. In a breakthrough, the first drug that can target and reduce the cause behind this dreaded disease has been found to be effective, safe and well tolerated in a human clinical trial that was conducted by UCL scientists.

"Good morning, doctor, I am here for my gene editing appointment." In the future, could this be a greeting heard in physician offices around the world? With the introduction of CRISPR technology, genetic material can now be more easily and precisely edited, even creating changes that can subsequently be inherited by offspring.

Researchers from the Institute of Neurosciences of the UB and from IDIBAPS together with a team from the University Pierre and Marie Curie and the Institute du Fer à Moulin, published a study in Nature Communications, which demonstrates that the regulation in Pyk2, a protein-tyrosine kinase, causes alterations of the synaptic plasticity involved in memory tasks, associated with the hippocampus in mouse models of neurodegenerative diseases, such as Huntington's.

By using induced pluripotent stem cells to create endothelial cells that line blood vessels in the brain for the first time for a neurodegenerative disease, University of California, Irvine neurobiologists and colleagues have learned why Huntington's disease patients have defects in the blood-brain barrier that contribute to the symptoms of this fatal disorder.

Working with mouse, fly and human cells and tissue, Johns Hopkins researchers report new evidence that disruptions in the movement of cellular materials in and out of a cell's control center - the nucleus- appear to be a direct cause of brain cell death in Huntington's disease, an inherited adult neurodegenerative disorder.

A new study has found a link between neurological birth defects in infants commonly found in pregnant women with diabetes and several neurodegenerative diseases, including Alzheimer's, Parkinson's and Huntington's diseases.

Huntington's disease is a neurodegenerative disorder that causes patients to lose their ability to move, speak, and even think. It is caused by a gene mutation that produces an abnormal form of the protein huntingtin, which aggregates and builds up inside neurons of the cortex and striatum.

While many anti-aging drugs don't live up to their claim, a tightly replicated study by Rutgers and a group of researchers from around the country discovered that a chemical used to detect amyloid plaques found in the brains of those with Alzheimer's extended the lifespan of thousands of roundworms similar in molecular form, function and genetics to humans.

The mystery of what controls the range of developmental clocks in mammals — from 22 months for an elephant to 12 days for an opossum — may lie in the strict time-keeping of pluripotent stem cells for each unique species.

Many kids say they love their mom and dad equally, but there are times when even the best prefers one parent over the other. The same can be said for how the body's cells treat our DNA instructions. It has long been thought that each copy - one inherited from mom and one from dad - is treated the same. A new study from scientists at the University of Utah School of Medicine shows that it is not uncommon for cells in the brain to preferentially activate one copy over the other.

Early warning signs of Huntington's disease have been uncovered in a sheep carrying the human HD mutation, leading the way for new insight into this devastating illness, a new study in Scientific Reports has found.

RNA repeats are stretches of code in the body that incrementally repeat. For example, in the most common cause of adult-on-set muscular dystrophy a RNA has a repeat of r(CUG) and this three letter code can repeat thousands of times.

STReM stands for Super Time-Resolved Microscopy, and as STORM, PALM, and other methods are designed to improve spatial resolution of optical microscopy, we desire to improve the time resolution. STReM makes use of point spread function engineering to encode fast events into each camera frame.

Lisa G. Lawson has over 25 years’ experience in supporting large and small pharmaceutical companies in contamination control, including cleaning and disinfection strategies, aseptic manufacturing and use of risk-based approaches to microbiological quality challenges

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